Polymerase exchange on single DNA molecules reveals processivity clamp control of translesion synthesis

James E. Kath; Slobodan Jergic; Justin M.H. Heltzel; Deena T. Jacob; Nicholas E. Dixon; Mark D. Sutton; Graham C. Walker; Joseph J. Loparo

doi:10.1073/pnas.1321076111

Polymerase exchange on single DNA molecules reveals processivity clamp control of translesion synthesis

James E. Kath
, Slobodan Jergic
, Justin M.H. Heltzel
, Deena T. Jacob
, Nicholas E. Dixon
, Mark D. Sutton
, Graham C. Walker
, Joseph J. Loparo

Biochemistry

Harvard University
University of Wollongong
SUNY Buffalo
Massachusetts Institute of Technology

Research output: Contribution to journal › Article › peer-review

78 Scopus citations

Abstract

Translesion synthesis (TLS) by Y-family DNA polymerases alleviates replication stalling at DNA damage. Ring-shaped processivity clamps play a critical but ill-defined role in mediating exchange between Y-family and replicative polymerases during TLS. By reconstituting TLS at the single-molecule level, we show that the Escherichia coli β clamp can simultaneously bind the replicative polymerase (Pol) III and the conserved Y-family Pol IV, enabling exchange of the two polymerases and rapid bypass of a Pol IV cognate lesion. Furthermore, we find that a secondary contact between Pol IV and β limits Pol IV synthesis under normal conditions but facilitates Pol III displacement from the primer terminus following Pol IV induction during the SOS DNA damage response. These results support a role for secondary polymerase clamp interactions in regulating exchange and establishing a polymerase hierarchy.

Original language	English
Pages (from-to)	7647-7652
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	111
Issue number	21
DOIs	https://doi.org/10.1073/pnas.1321076111
State	Published - May 27 2014

Keywords

DNA repair
DNA replication
DinB
Lesion bypass
Single-molecule techniques

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10.1073/pnas.1321076111

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Kath, J. E., Jergic, S., Heltzel, J. M. H., Jacob, D. T., Dixon, N. E., Sutton, M. D., Walker, G. C., & Loparo, J. J. (2014). Polymerase exchange on single DNA molecules reveals processivity clamp control of translesion synthesis. Proceedings of the National Academy of Sciences of the United States of America, 111(21), 7647-7652. https://doi.org/10.1073/pnas.1321076111

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title = "Polymerase exchange on single DNA molecules reveals processivity clamp control of translesion synthesis",

abstract = "Translesion synthesis (TLS) by Y-family DNA polymerases alleviates replication stalling at DNA damage. Ring-shaped processivity clamps play a critical but ill-defined role in mediating exchange between Y-family and replicative polymerases during TLS. By reconstituting TLS at the single-molecule level, we show that the Escherichia coli β clamp can simultaneously bind the replicative polymerase (Pol) III and the conserved Y-family Pol IV, enabling exchange of the two polymerases and rapid bypass of a Pol IV cognate lesion. Furthermore, we find that a secondary contact between Pol IV and β limits Pol IV synthesis under normal conditions but facilitates Pol III displacement from the primer terminus following Pol IV induction during the SOS DNA damage response. These results support a role for secondary polymerase clamp interactions in regulating exchange and establishing a polymerase hierarchy.",

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T1 - Polymerase exchange on single DNA molecules reveals processivity clamp control of translesion synthesis

AU - Kath, James E.

AU - Jergic, Slobodan

AU - Heltzel, Justin M.H.

AU - Jacob, Deena T.

AU - Dixon, Nicholas E.

AU - Sutton, Mark D.

AU - Walker, Graham C.

AU - Loparo, Joseph J.

PY - 2014/5/27

Y1 - 2014/5/27

N2 - Translesion synthesis (TLS) by Y-family DNA polymerases alleviates replication stalling at DNA damage. Ring-shaped processivity clamps play a critical but ill-defined role in mediating exchange between Y-family and replicative polymerases during TLS. By reconstituting TLS at the single-molecule level, we show that the Escherichia coli β clamp can simultaneously bind the replicative polymerase (Pol) III and the conserved Y-family Pol IV, enabling exchange of the two polymerases and rapid bypass of a Pol IV cognate lesion. Furthermore, we find that a secondary contact between Pol IV and β limits Pol IV synthesis under normal conditions but facilitates Pol III displacement from the primer terminus following Pol IV induction during the SOS DNA damage response. These results support a role for secondary polymerase clamp interactions in regulating exchange and establishing a polymerase hierarchy.

AB - Translesion synthesis (TLS) by Y-family DNA polymerases alleviates replication stalling at DNA damage. Ring-shaped processivity clamps play a critical but ill-defined role in mediating exchange between Y-family and replicative polymerases during TLS. By reconstituting TLS at the single-molecule level, we show that the Escherichia coli β clamp can simultaneously bind the replicative polymerase (Pol) III and the conserved Y-family Pol IV, enabling exchange of the two polymerases and rapid bypass of a Pol IV cognate lesion. Furthermore, we find that a secondary contact between Pol IV and β limits Pol IV synthesis under normal conditions but facilitates Pol III displacement from the primer terminus following Pol IV induction during the SOS DNA damage response. These results support a role for secondary polymerase clamp interactions in regulating exchange and establishing a polymerase hierarchy.

KW - DNA repair

KW - DNA replication

KW - DinB

KW - Lesion bypass

KW - Single-molecule techniques

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U2 - 10.1073/pnas.1321076111

DO - 10.1073/pnas.1321076111

M3 - Article

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AN - SCOPUS:84901660107

SN - 0027-8424

VL - 111

SP - 7647

EP - 7652

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 21

ER -

Polymerase exchange on single DNA molecules reveals processivity clamp control of translesion synthesis

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